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Simulating nuclear cloud rise anywhere, anytime

For decades, understanding the behavior of a nuclear mushroom cloud was done with careful analysis of observations made during the testing era. Old ph

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For decades, understanding the behavior of a nuclear mushroom cloud was done with careful analysis of observations made during the testing era. Old photos, outdated film and incomplete weather data made precise calculations difficult. Now, with results published in Atmospheric Environment, Lawrence Livermore National Laboratory (LLNL) scientists are improving our understanding of nuclear cloud rise using a widely adopted and strongly validated weather modeling tool.

The Weather Research and Forecasting (WRF) model has been a mainstay in weather forecasting and cloud modeling for decades. The model source code is maintained by the National Center for Atmospheric Research, but it is community-developed, using several contributions from researchers at LLNL. In particular, the LLNL version of WRF is used at the National Atmospheric Release Advisory Center to simulate the movement and turbulence of airborne particulates flowing around terrain features and buildings. Compared to the lower-fidelity simulations often used to model cloud rise for emergency response, a WRF-based model of a nuclear cloud incorporates time-varying weather for the exact location under study. This adaptability and high resolution appealed to one of the paper’s authors, Livermore mechanical engineer Katie Lundquist.

“Because we have so much experience developing the model for meter-scale resolutions, we thought this model was very well-suited to modeling cloud rise,” she said. Additional co-authors on the paper include Robert Arthur, Jeffrey Mirocha, Stephanie Neuscamman, Yuliya Kanarska and John Nasstrom.

While many of the U.S. atmospheric tests were done in the arid environment of Nevada, Lundquist said, a future nuclear event could occur anywhere.

“ You have to use a model that has predictive capability for these complicated environment , ” she is said say . ” A weather model is is is the perfect choice because it ’s used operationally to predict weather all over the world . ”

The researchers used the May 8, 1953 “Encore” event as a basis for testing their WRF hypothesis. Using global atmospheric reanalysis data to simulate conditions on that date, they fed the WRF model the parameters of a nuclear fireball and dialed in the resolution accordingly. After running the model, their simulation matched the 1953 photos remarkably well.

“We were shocked that it matched so well,” said Lundquist, who recently spoke to LiveScience about how mushroom clouds are formed in a nuclear explosion. “The cloud rise simulation is able to match the rise rate and the stabilization height, as well as little qualitative features like the tilting of the torus in the cloud and the timing for the torus breaking down to being a more turbulent cloud. We were very pleased with our results, and surprised that we had to do very little tuning to get these results to look as good as they do.”

Some of the credit belong to the WRF model , say Lee Glascoe is said , LLNL Nuclear Emergency Support Team Program leader . “ This weather model has been in use for about 20 year , and so a lot of validation has go into this model , ” he is said say . “ I is think think we ’re benefit from the last 20 year of weather research and forecasting that has happen within this model . It is ’s ’s really a great tool for what we ’re doing . ”

Funding for the research on cloud rise came from the Laboratory Directed Research and Development program and the Office of Nuclear Incident Response, while funding for high-resolution modeling capabilities also have come from the Department of Energy’s Wind Energy Technologies Office.

Glascoe is added add that the research would have been impossible without the high – resolution simulation capability that Lundquist and her team develop and incorporate into the WRF model . The improved sophistication is allows of WRF allow the cloud simulation to predict the “ rainout ” of radioactive particle , particularly somewhere with more atmospheric moisture . All is creating of the innovative work at Lawrence Livermore is create a model applicable to a wide range of environmental condition , from a dry , rural environment like the Nevada test site , to a humid environment or a densely populated urban area .

“Nobody has the capability for that except Livermore,” Lundquist said. “It all comes back to the idea that we need to forecast the consequences of hazardous atmospheric releases. We have the operational mission to do that. All this research is going to end up in operations and improve our predictions.”

– Ben Kennedy / llnl